Multi-function lighting system

ABSTRACT

A multi-function lighting system is provided. A design of multiplex configuration of a multi-diode lighting module and a design of optical time domain modulation of an electric controlling system are applied to a lighting system which senses environmental conditions to automatically or artificially change a color, a light intensity and a color-temperature of a light to influence people&#39;s feelings and moods. At the same time, the environmental sensing device further feedbacks an information of humidity or temperature so that parameter of optimum light environment can be set accordingly. The multi-diode lighting module is applied to the design of the lighting system, such that the lighting system can be manufactured in a customization way to meet varied requirements in the landscaping and optical designs, not only reducing the cost and increasing mass production rate but also providing multi-functions including landscaping lighting, ergonomic lighting, plant lighting and air purifying.

This application claims the benefit of Taiwan application Serial No.100103720, filed Jan. 31, 2011, the subject matter of which isincorporated herein by reference.

BACKGROUND

1. Technical Field

The disclosure relates in general to a multi-function lighting system,and more particularly to a lighting system with the functions oflandscaping lighting, ergonomic lighting, plant lighting and airpurifying.

2. Description of the Related Art

In recent years, people's requirements of living environment are gettinghigher and higher, and it is popular that people match the light colorswith the decorative or artistic shapes of the lighting lamps, so thatthe surrounding space emanates certain atmospheres and moods, user'sstylistic features can manifested, and environmental aesthetics isenhanced. Eventually, the living space further satisfies user's needsboth physiological and psychological, and provides the user withenjoyable aesthetics and balance between the body and the mind.

Modern landscaping and space design places particular focus in the studyof ergonomic engineering, environmental psychology, and aestheticpsychology with an aim to resolving people's requirements of theirliving environment in the aspects of physiological characteristics,behavior psychology and visual experience through scientific methods.The matching between light environment and colors is an importantelement in the design of landscaping and living environment, whichaffect people's physical and mental state by modulating the spectrum ofthe lighting lamp, and optical parameters such as light intensity andcolor temperature. To harmonize the color of the space with theatmosphere through plants is a common practice in environmental design.

Research literatures show that through the use of illumination light, anenvironment with different scenarios which give people differentfeelings can be created. For example, as the spectrum energy of orangewaveband (595 nm to 620 nm) increases, people will feel morecomfortable, relaxed and spirited. Under the illumination environmentwith the color temperature being equal to 6500 K, as the spectrum energyof the blue waveband (435 nm to 490 nm) increases, people's internalorgans related to respiratory and circulatory system, urinary system andbiliary tract system will be significantly affected. High colortemperature and high illumination (such as 6500 K and 450 lux) makespeople feel excited. Low color temperature and middle illumination (suchas 3200 K and 300 lux) makes people calm and peaceful. High colortemperature and low illumination (such as 6500 K and 150 lux) makespeople feel upset and depressed. Low color temperature and highillumination (such as 3200 K and 450 lux) feel unpleasant. In short,various combinations of illumination and color temperature affectpeople's moods and make them generate corresponding behaviors.

For example, red color helps to stimulate and excite people's nervesystem, increase the secretion of epinephrine and enhance bloodcirculation. Green color has sedative effect, benefits those who arehyperactive or suppressed either physiological or psychological andhelps the body to achieve balance and relieve dizziness, fatigue ornegative emotion. Blue color environment provides a feeling of serenityand grace, and helps people to achieve internal balance. Blue color whenused in a bedroom helps to relieve people of nervousness, headache,fever, dizziness, and insomnia. Yellow color stimulates people's nervesystem and digestive system and enhances logic thinking. Orange colorgenerates vitality, stimulates people's appetite and helps to maintainhealth, and is ideal for the places such as rumpus and kitchen.

In addition, light therapy has been widely used to improve the sleep andemotions of the sick or the seniors. Based on the response of the eyeswhen receiving the light, the light with special wavelengths anddifferent light intensity levels is used for adjusting the timing atwhich melatonin is secreted by the pineal gland, so as to regulatepeople's biological clock to achieve a balanced rhythm and improvepeople's body temperature, sleep/wake cycle and action/rest rhythm.

A study of the environmental influence of plants on the indoor pathogencontent and indoor humidity shows that when a substance volatilized fromthe leaves is mixed with the water vapor, the substances will suppressthe growth of the pathogens in the air. Plants with high transpirationrate and large total foliar surface area help to increase indoorhumidity and the dust in the air, so that the indoor air is effectivelypurified and the indoor air light quality is improved. Some plants helpto absorb chemical substances that are hazardous to human body, and thedisposition of indoor foliage plants helps to alleviate people of thesymptoms of infection in the nose, throat, and respiratory system. Also,research literatures show that people's anxiety and nervousness can bealleviated when household landscaping includes natural view or indoorplants. In comparison to the urban landscaping, sports or otherentertainments, viewing landscaping plants or natural environment doesbetter in alleviating people's fatigue or restoring people'sconcentration. In addition, a workplace with green landscaping not onlybenefits people's physiology and psychology but also helps to reducepeople's pressure and anxiety and further increases people's morale andefficiency in their work. A hospital ward with green plants isbeneficial to patients' recovery, and at the same time help to reducepatients' feeling of pain, negative emotions and hospital stay.

The disposition of plants in an indoor space is indeed beneficial topeople's health both physiologically and psychologically. However,plants lacking sunlight cannot conduct photosynthesis, and will withersoon or end up with poor growth. Research literatures show that,suitable amount of light intensity of red light (610 nm to 720 nm) orblue light (400 nm to 520 nm) or a combination thereof is conducive tothe growth of the plants.

There are only a few number of related patents are provided. Accordingto the Taiwanese Patent Publication No. TW 200952034 A1, a lamp, whichis discharged by a low-pressure gas affecting the balance of endogenousmelatonin is disclosed. The light in the region of red color spectrum isused for regulating the biological clock by controlling the secretion ofmelatonin.

In addition, a lamp with led chip for biological growth is disclosed inthe Taiwanese Patent Publication No. TW M381999 U1. According to thesaid disclosure, a first LED and a second LED respectively emit a firstwaveband light source and a second waveband light source to assistbiological growth.

A night light device, which assists baby's sleep with three differentlighting modes is disclosed in the U.S. Pat. No. 6,902,296. The nightlight device further comprises a biological sensor which detects user'stemperature, blood pressure and blood concentration and then switches toa suitable light mode automatically.

SUMMARY

The disclosure is directed to a multi-function lighting system. Thelighting source automatically or artificially changes the color, thelight intensity and the color-temperature of the light to create variedlight environments that influence people's feelings and moods. At thesame time, the environmental sensing device further feedbacks theinformation of humidity or temperature so that parameter of optimumlight environment can be set accordingly. Thus, the lighting module canprovide multi-functions of landscaping lighting, ergonomic lighting,plant lighting and air purifying.

According to an embodiment of the present disclosure, a multi-functionlighting system is provided. The lighting system comprises at least amulti-diode lighting module and an electric controlling system. Thelighting module control unit modulates the light quality (such asphotochromic matching), the light intensity and the color temperature ofthe light generated by the multi-diode lighting module, so that themulti-diode lighting module generates at least two light source statescorresponding to at least two scenarios.

The above and other aspects of the disclosure will become betterunderstood with regard to the following detailed description of thenon-limiting embodiment(s). The following description is made withreference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a block diagram of a multi-function lighting systemaccording to an embodiment of the disclosure;

FIGS. 2 to 6 show various embodiments of a multi-diode lighting module;and

FIGS. 7 to 10 show various embodiments of the application of a lightingsystem.

DETAILED DESCRIPTION

The disclosure is related to a multi-function light emitting diode (LED)lighting system. The lighting system of the disclosure which providesmulti-functions in one single lighting module is applicable to theconventional LED packaging process. Furthermore, the whole module can bemanufactured by the substrate integrated process (such as the integratedcircuit process), the light quality, the light intensity and the colortemperature of the light can be modulated, the modulation of the lightcan be realized by time domain implementation, the manufacturingprocess/assembly can be modulized, and the light source module can bedisposed in a customization way to meet design requirements. However,the embodiments disclosed below are for exemplification purpose only,not for limiting the scope of the disclosure.

Referring to FIG. 1, a block diagram of a multi-function lighting system1000 according to an embodiment of the disclosure is shown. Themulti-function lighting system 1000 of the present embodiment of thedisclosure comprises one or more than one multi-diode lighting module100 and an electric controlling system 200.

Referring to FIG. 1 and FIG. 2. Exemplarily (but not restrictively), themulti-diode lighting module 100 is formed by integrating more than onemulti-diode lighting sub-module 110 in a particular-material substrate112.

Exemplarily, the multi-diode lighting sub-module 110 is formed byintegrating the LED chips with different wavelengths or colortemperatures and the LED packages in the particular-material substrate113.

The multi-diode lighting module 100 can be modulized and manufactured byintegrating the LEDs and the multi-diode lighting sub-modules 110 by thesubstrate integrated process (such as all integrated circuit process).

A conductive structure or a non-conductive structure can be disposed onthe surface or in the interior of the particular-material substrate 112and particular-material substrate 113, wherein the particular-materialsubstrate 112 and the particular-material substrate 113 can be made fromsuch as a metal conductor, a semiconductor, a ceramic material, apolymer material or a composite material. An electrical circuit(conductive structure) can be disposed on the surface or in the interiorof the particular-material substrate 112 and the particular-materialsubstrate 113 and used as a power and electric controlling signal lineor an optical interconnection optical path (such as the light guidestructure) for transmitting an optical signal.

A plurality of multi-diode lighting sub-modules 110 and a plurality ofmulti-diode lighting modules 100 are connected via circuits (or referredas a conductive structure) or an optical path (or referred as a lightguide structure). The circuits provide a power and an electriccontrolling signal. The optical path controls the transmission andfeedback of an optical signal. The circuits can be electricallyconnected through electrical wire, electrical circuit or moduleconnection circuit. The optical path can be connected for transmittingan optical signal through optical fiber, optical waveguide or moduleconnection optical path, wherein the optical waveguide comprises apolymer optical waveguide, a chemical compound optical waveguide, and asemiconductor optical waveguide. If the light source module has thedesign for transmitting the optical signal, then the opticaltransmitter, the optical receiver and the photoelectrical signalconverter can be integrated in the light source sub-module or the lightsource module for performing photoelectrical signal conversion. If alllight source module is integrally manufactured by substrate integratedprocess, then the optical transmitter, the optical receiver and thephotoelectrical signal converter can be integrated as a light sourcemodule by the all integrated circuit process. The electric signal of themulti-diode lighting module 100 is processed and controlled by theelectric controlling system 200. The multi-diode lighting module 100basically forms a spectrum whose wavelengths comprise a red light, agreen light, a blue light, a yellow light, an orange light, a whitelight and so on. Or, a light source with another spectrum can be formedby mixing a red light, a green light, a blue light LED as a white lightor mixing other LED lights with different wavelengths. Furthermore, themulti-diode lighting module 100 can have different color temperatures.The multi-diode lighting module 100 can concurrently emit a light withmore than one wavelength or the color temperature. The formation of themulti-diode lighting module 100 can include a far-infrared light LED,which is also used as a light source for controlling the growth of theplants (such as affecting the flowering of plants or the germination ofseedlings) or a light source for the providing healthcare to people. Forexample, when the body is radiated by an infrared light, the skin willgenerate internal heat, pores will be expanded, perspirations will besecreted, metabolism will be stimulated and blood circulation will beaccelerated, so as to convey oxygen and nutrition to the tissues,excrete metabolites with perspirations, replenish one's energy andrelieve one from fatigue. The formation of the multi-diode lightingmodule 100 can include an ultra-velvet light LED, which is also used asa bactericidal or antibacterial light source (such as killing orsuppressing the bacteria or germs in the air or the plants or killing orsuppressing insects or pests).

The electric controlling system 200 comprises a lighting module controlunit 210, a time domain control unit 220, an environment sensing unit230, an operation controlling unit 240 and a memory database unit 250.The functions of the above elements of the electric controlling system200 are disclosed below.

The lighting module control unit 210 individually modulates the lightquality, the light intensity and the color temperature of the lightgenerated by each multi-diode lighting sub-module 110 or the LED, ormodulates the light quality, the light intensity and the colortemperature of the light generated by part or all of the multi-diodelighting sub-modules 110 or part or all of the LEDs to generate a lightenvironment applicable to various scenarios. That is, the controllingmethod of the multi-function lighting system 1000 comprises the steps ofmodulating the light quality of the light generated by the multi-diodelighting module 100; modulating the light intensity of the lightgenerated by the multi-diode lighting module 100; and modulating thecolor temperature of the light generated by the multi-diode lightingmodule 100. For example, the lighting module control unit 210individually modulates each multi-diode lighting sub-module 110 or eachLED, or concurrently modulates part or all of the multi-diode lightingsub-modules 110 or part or all of the LEDs, so that the multi-diodelighting module 100 generates a monochromic spectrum, a polychromicspectrum or a mixed light spectrum. Or, the lighting module control unit210 adjusts the light intensity of the multi-diode lighting module byway of individually modulating each multi-diode lighting sub-module 110or each LED or concurrently modulating part or all of the multi-diodelighting sub-modules 110 or part or all of the LEDs.

The time domain control unit 220 controls each or part or all of theLEDs, each or part or all of the multi-diode lighting sub-modules 110and each or part or all of the multi-diode lighting modules 100according to a time parameter, so that the response of the lightgenerated by the multi-function lighting system 1000 varies with thetime. For example, the light quality and the color temperature of eachmulti-diode lighting sub-module 110 or each LED can be started or turnedoff along with the time or the light intensity of each multi-diodelighting sub-module 110 or each LED can be increased or decreased. Or,the light quality and the color temperature of part or all of themulti-diode lighting sub-modules 110 or part or all of the LEDs can bestarted or turned off along with the time or the light intensity of partor all of the multi-diode lighting sub-modules 110 or part or all of theLEDs can be increased or decreased.

The environment sensing unit 230 can integrate a temperature, humidityand light intensity sensor, an object movement sensor and a signaltransmitter/receiver for sensing an environmental condition andcontrolling the multi-diode lighting module 100 accordingly. Theenvironmental condition is such as a temperature, a humidity, anillumination of the space, the moving state of a human body in thespace, or the combination thereof. For example, when the environmentsensing unit 230 senses that a human body enters a room from anotherroom, the environment sensing unit 230 turns on/off the multi-diodelighting module 100. Or, the environment sensing unit 230, after sensingthat the temperature, the humidity or the light environment changes,modulates the light color or the light intensity of the light generatedby the multi-diode lighting module 100 accordingly. For example, duringthe office hours, the light source is a white light. When the outdoorsunlight shines in the indoors, the multi-function lighting system 1000automatically reduces the light intensity of the white light generatedby multi-diode lighting module 100 through the lighting module controlunit 210. Or, when the user would like to enter a relaxed or sleep stateand there are indoor background lights, the multi-function lightingsystem 1000 automatically changes its photochromic matching and lightintensity through the lighting module control unit 210. That is, whenchanges occur to the response of the light generated by themulti-function lighting system 1000 and the indoor background lightenvironment, the multi-function lighting system 1000 automaticallyreduces or enhances the light color and the light intensity of the lightgenerated by the multi-diode lighting module 100 through the lightingmodule control unit 210. Or, if the sensor detects that the indoortemperature or humidity is too high and may easily make people feelirritated, then the lighting system automatically adjusts the lightcolor and the light intensity of the light to low color temperature andmiddle illumination, so that people's mood can be pacified. That is, ifthe environment sensing unit 230 detects that the indoor temperature orhumidity deviate from the comfort zone, then the multi-function lightingsystem 1000 automatically adjusts its photochromic matching and lightintensity through the lighting module control unit 210, so that thegenerated light environment can make people feel comfortable. Or,suppose the setting of light environment is to enter a sleep state. Ifthe environment sensing unit 230 senses that a human body turns over,this implies that the user has not yet entered the sleep state or thesleep is still very light, then the multi-function lighting system 1000does not modulate the original light environment for the sleep state,but automatically delay and change the modulation time of the lightenvironment for the sleep state and the light source modulationperiodical setting through the time domain control unit 220.

The operation controlling unit 240 modulates the light quality, thelight intensity and the color temperature of the light generated by themulti-diode lighting module 100 according to a setting of lightenvironment. The operation controlling unit 240 performs modulation inan automatic or artificial way. The operation controlling unit 240 canmodulate the multi-diode lighting module 100 through cabled transmissionor wireless transmission, wherein the user can modulate the light sourcethrough a hand-held control device, such as a hand-held remotecontroller.

The memory database unit 250 stores a light environment time domainparameter. Through 24 hour light environment sensing, the multi-diodelighting module 100 can set and store the optimum value of the lightenvironment time domain parameter, such as the time for automaticallymodulating the spectrum and the light intensity of the light generatedby the light source. Or, the user can adjust his/her personalpreference, and the memory database unit 250 automatically records theuser's personal preferences accordingly.

The multi-diode lighting module 100 of the disclosure can bemanufactured in a customization way to meet the diversified needs of thelamps. Thus, the LEDs, the multi-diode lighting sub-modules 110 and themulti-diode lighting module 100 can be combined according to actualneeds so as to generate various light environments with differentqualities, light intensity, color temperatures and patterns of thelight. Let FIG. 2 be taken for example. The multi-diode lighting module300 is formed by a plurality of multi-diode lighting sub-modules 310arranged in the form of a matrix. The multi-diode lighting sub-modules310 are formed by the red, the green, the blue, the yellow and theorange light LEDs 311 (“R” denotes a red light, “G” denotes a greenlight, “B” denotes a blue light, “Y” denotes a yellow light, “O” denotesan orange light). The red, green and blue light can be mixed as a lightsource with a white light spectrum.

Let FIG. 3 be taken for example. The multi-diode lighting module 400 canbe formed by three color temperatures or even more light sourcesub-modules 410 (in FIG. 3, different shadings indicate different colortemperatures). The LEDs 411 can have many distributions of colortemperatures and spectrums, which further form different combinations ofconditions for the required light sources.

Let FIG. 4 be taken for example. The multi-diode lighting sub-modules510 and 520 can be arranged in a multiplex configuration. Let themulti-diode lighting sub-modules 510 disposed at the left-hand side ofFIG. 4 be taken for example. The multi-diode lighting sub-modules 510can be formed by the red, the green, the blue, the white, the yellow andthe orange light LEDs 511 (“W” denotes a white light). Let themulti-diode lighting sub-modules 520 disposed at the right-hand side ofFIG. 4 be taken for example. The multi-diode lighting sub-module 520 canbe formed by a multiplex configuration of the red, the green, blue, theyellow and the orange light LEDs 521.

Let FIG. 5 be taken for example. The multi-diode lighting module 600disposed at the left-hand side of FIG. 5 can be formed by the lightsource sub-modules 610 with different colors (different net pointsindicate different colors). The multi-diode lighting module 700 disposedat the right-hand side of FIG. 5 can be formed by the multi-diodelighting sub-modules 710 with different color temperatures (differentnet points indicate different color temperatures).

Let FIG. 6 be taken for example. The multi-diode lighting sub-modules800 disposed at the left-hand side of FIG. 6 can be formed by the LEDs611 and 612 different spectrums or color temperature (different netpoints indicate different spectrums or color temperatures). Themulti-diode lighting modules 900 disposed at the right-hand side of FIG.6 can be formed by the multi-diode lighting sub-modules 800, 810, 820and 830 with different color temperatures or colors (different netpoints indicate different color temperatures or spectrums). Differentpatterns (such as the heart patterns) of colors or color temperaturescan be generated through various dispositions or arrangements of theLEDs 611 and 612 and the multi-diode lighting sub-modules 800, 810, 820and 830.

In the application of the disclosure, the light is modulated accordingto the states and needs of the light environment under differentscenarios. FIG. 7 shows a modulation diagram when the light system ofthe disclosure is implemented in a lounge. In the part of the ergonomiclighting, the light is turned off during the daytime when nobody is athome during the daytime; the orange light is automatically turned onaround the dusk evening when people are off from their work and need tohave a break; and the plant lighting is turned on two hours before thebed time. In the part of the plant lighting, the blue light is turned onfirst, and then the red light and the blue light are turned on aspre-set to radiate for 6 hours, and during which time, the ratio of theblue light diminishes. In the part of landscaping lighting, the light isgenerated in a customization way to fit the user's needs.

FIG. 8 shows a modulation diagram when the light system of thedisclosure is implemented in a bedroom. When the plant lighting isinadequate, the red light and the blue light are turned on around thedusk evening, and the blue light is turned on 1 hour before the bedtime, and at the light intensity diminishes to relax people's moods. Inthe part of landscaping lighting, the light is generated in acustomization way to fit the user's needs.

FIG. 9 shows a modulation diagram when the light system of thedisclosure is implemented in an office. The white light is automaticallyturned on at a pre-set time in the morning. The orange light is turnedon to relax people's mood during the lunch break. The white light isautomatically in the afternoon and during the overtime in the evening.The plant lighting is turned on in the midnight when nobody is in theoffice. The red light and the blue light are turned on as pre-set toradiate for 6 hours in the night time. In the part of landscapinglighting, the light is generated in a customization way to fit theuser's needs.

FIG. 10 shows a modulation diagram when the light system of thedisclosure is implemented in a garden. The white light is turned on forreading in the morning time. The orange light is turned on for people torelax in the afternoon. The blue light is automatically turned on togive people a feeling of serenity in the evening. In the lighting partof plant, the red light and the blue light are turned automatically inthe morning; the light intensity of the red light and the blue light canbe dimmed by the user in the noon time and the afternoon; the blue lightis automatically in the evening; the red light and the blue light areautomatically in the night time, and the ratio of the blue lightdiminishes. In the part of landscaping lighting, the light is generatedin a customization way to fit the user's needs.

A design of multiplex configuration of a multi-diode lighting module anda design of optical time domain modulation of an electric controllingsystem are applied to the lighting system which senses environmentalconditions to change the color, the light intensity and thecolor-temperature of the light automatically or artificially toinfluence people's feelings and moods. At the same time, theenvironmental sensing device further feedbacks the information ofhumidity or temperature so that the parameter of optimum lightenvironment can be set accordingly. Based on a diversity ofspecifications of the lighting lamps, landscaping modeling, and schemesof light environment, the lighting system of the disclosure adoptsdifferent designs with high flexibility for the LEDs, the multi-diodelighting sub-modules and the multi-diode lighting modules, and theproducts are manufactured in a customization way to provide adiversified combination and configuration. Through the varieddispositions and arrangements of the light quality, the light intensity,the color temperature of the light generated by the light source, variedcombinations of designs of light patterns can be provided. Furthermore,the electric controlling system can also adjust the architecture of theelements to meet different needs, such that the lighting system can bemanufactured in a customization way to meet varied requirements in thelandscaping and optical designs, not only having the advantages ofreducing the cost and speeding mass production, but also providingmulti-functions including landscaping lighting, ergonomic lighting,plant lighting and air purifying.

While the disclosure has been described by way of example and in termsof the exemplary embodiment(s), it is to be understood that thedisclosure is not limited thereto. On the contrary, it is intended tocover various modifications and similar arrangements and procedures, andthe scope of the appended claims therefore should be accorded thebroadest interpretation so as to encompass all such modifications andsimilar arrangements and procedures.

What is claimed is:
 1. A multi-function lighting system, comprising: atleast a multi-diode lighting module, wherein each multi-diode lightingmodule includes a plurality of multi-diode lighting sub-modules withdifferent spectrums or different color temperatures; and an electriccontrolling system, comprising: a lighting module control unit, whichmodulates a light quality, a light intensity and a color temperature ofa light generated by the multi-diode lighting module, so that the atleast a multi-diode lighting module generates at least two light sourcestates corresponding to at least two scenarios; wherein each of the atleast a multi-diode lighting module comprises a plurality of lightemitting diodes (LEDs) with different spectrums or color temperatures,the lighting module control unit individually modulates the lightquality, the light intensity and the color temperature of the lightgenerated by each multi-diode lighting sub-module or each LED, ormodulates the light quality, the light intensity and the colortemperature of the light generated by part or all of the multi-diodelighting sub-modules or part or all of the LEDs.
 2. The multi-functionlighting system according to claim 1, wherein the electric controllingsystem further comprises: an environment sensing unit, which senses anenvironmental condition for controlling the multi-diode lighting moduleaccordingly.
 3. The multi-function lighting system according to claim 1,wherein the electric controlling system further comprises: an operationcontrolling unit, which modulates the light quality, the light intensityand the color temperature of the light generated by the multi-diodelighting module according to a setting of light environment.
 4. Themulti-function lighting system according to claim 1, wherein theelectric controlling system further comprises: a memory database unit inwhich a light environment time domain parameter is stored.
 5. Themulti-function lighting system according to claim 1, wherein themulti-diode lighting module comprises: a plurality of multi-diodelighting sub-modules; and a substrate on which the multi-diode lightingsub-modules are disposed.
 6. The multi-function lighting systemaccording to claim 1, wherein the lighting module control unitindividually modulates the multi-diode lighting sub-modules or the LEDs,or concurrently modulates the multi-diode lighting sub-modules or theLEDs, so that the multi-diode lighting module generates a monochromicspectrum, a polychromic spectrum or a mixed light spectrum.
 7. Themulti-function lighting system according to claim 6, wherein theelectric controlling system further comprises: an environment sensingunit, which senses an environmental condition for controlling themulti-diode lighting module accordingly.
 8. The multi-function lightingsystem according to claim 6, wherein the electric controlling systemfurther comprises: an operation controlling unit, which modulates thelight quality, the light intensity and the color temperature of thelight generated by the multi-diode lighting module according to asetting of light environment.
 9. The multi-function lighting systemaccording to claim 6, wherein the electric controlling system furthercomprises: a memory database unit in which a light environment timedomain parameter is stored.
 10. The multi-function lighting systemaccording to claim 6, wherein the multi-diode lighting module comprises:a plurality of multi-diode lighting sub-modules; and a substrate onwhich the multi-diode lighting sub-modules are disposed.
 11. Themulti-function lighting system according to claim 1, wherein each of theat least a multi-diode lighting sub-module generates two lights withmore than two wavelengths or color temperatures.
 12. The multi-functionlighting system according to claim 11, wherein the electric controllingsystem further comprises: an environment sensing unit, which senses anenvironmental condition for controlling the multi-diode lighting moduleaccordingly.
 13. The multi-function lighting system according to claim11, wherein the electric controlling system further comprises: anoperation controlling unit, which modulates the light quality, the lightintensity and the color temperature of the light generated by themulti-diode lighting module according to a setting of light environment.14. The multi-function lighting system according to claim 11, whereinthe electric controlling system further comprises: a memory databaseunit in which a light environment time domain parameter is stored. 15.The multi-function lighting system according to claim 11, wherein themulti-diode lighting module comprises: a plurality of multi-diodelighting sub-modules; and a substrate on which the multi-diode lightingsub-modules are disposed.
 16. A multi-function lighting system,comprising: at least a multi-diode lighting module, wherein eachmulti-diode lighting module includes a plurality of multi-diode lightingsub-modules; and an electric controlling system, comprising: a lightingmodule control unit, which modulates a light quality, a light intensityand a color temperature of a light generated by each of multi-diodelighting sub-module to be different from others, so that the at least amulti-diode lighting module generates at least two light source statescorresponding to at least two scenarios; wherein each of the at least amulti-diode lighting module comprises a plurality of light emittingdiodes (LEDs) with different spectrums or color temperatures, thelighting module control unit individually modulates the light quality,the light intensity and the color temperature of the light generated byeach multi-diode lighting sub-module or each LED, or modulates the lightquality, the light intensity and the color temperature of the lightgenerated by part or all of the multi-diode lighting sub-modules or partor all of the LEDs.
 17. The multi-function lighting system according toclaim 16, wherein the electric controlling system further comprises: anenvironment sensing unit, which senses an environmental condition forcontrolling the multi-diode lighting module accordingly.
 18. Themulti-function lighting system according to claim 16, wherein theelectric controlling system further comprises: an operation controllingunit, which modulates the light quality, the light intensity and thecolor temperature of the light generated by the multi-diode lightingmodule according to a setting of light environment.
 19. Themulti-function lighting system according to claim 16, wherein theelectric controlling system further comprises: a memory database unit inwhich a light environment time domain parameter is stored.
 20. Themulti-function lighting system according to claim 16, wherein thelighting module control unit individually modulates the multi-diodelighting sub-modules or the LEDs, or concurrently modulates themulti-diode lighting sub-modules or the LEDs, so that the multi-diodelighting module generates a monochromic spectrum, a polychromic spectrumor a mixed light spectrum.